JP3221555B2 - Video decoding device having frame rate conversion function - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video decoding apparatus, and more particularly to a video decoding apparatus capable of converting an input video signal having a frame rate different from the frame rate of a screen display device to have a frame rate of the screen display device and outputting the converted video signal. The present invention relates to a video decoding device having a frame rate conversion function.

[0002]

2. Description of the Related Art In recent years, with the start of satellite broadcasting, the radio wave area of one country's satellite broadcasting extends to neighboring countries. Accordingly, it is expected that viewing satellite broadcasting between neighboring countries will become active in response to various viewing desires of users. However, in general, T
Since the V receiver is produced based on the TV broadcasting system of the home country, only the video of the same broadcasting system as the TV broadcasting system of the home country can be displayed on the screen. Therefore, the current TV receiver could not watch a video signal propagated in a broadcasting system different from the home country. However, the broadcasting station used expensive equipment to convert the frame rate of the video signal, re-recorded the video signal, and then sent it to a TV receiver in each home to view the video signal. Also in this case, there is a problem in that the user cannot view the desired program more freely because the user can view only the program to be transmitted after performing the frame rate conversion in the broadcasting station.

[0003] Accordingly, there has been a demand for a TV receiver capable of freely displaying video regardless of the broadcasting system. This request
In the future, it will be further enhanced in high-definition TV (HDTV).

[0004]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to convert an input bit sequence into a frame rate of a screen display device and output the frame when the frame rate of the compression-encoded input bit sequence is different from the frame rate of the screen display device. An object of the present invention is to provide a video decoding device having a frame rate conversion function that enables the video decoding.

[0005]

In order to achieve the above-mentioned object of the present invention, an encoded video signal having a frame rate different from the frame rate of the screen display device according to the present invention has the frame rate of the screen display device. A video decoding apparatus for converting and outputting a video signal includes a decoding unit that decodes a received coded video signal, and a first frame rate of the coded video signal based on a predetermined reference clock. A first frame rate generator that generates
A second frame rate generator for generating a second frame rate of the screen display device based on the reference clock; and the first and second frame rates generated by the first and second frame rate generators are input and If the first frame rate is higher than the second frame rate, an extraction control signal for extracting a predetermined frame is generated,
When the first frame rate is lower than the second frame rate, a frame rate conversion unit that generates a repetition control signal for repeating a predetermined frame and outputs the signal to the decoding unit, and a frame output from the decoding unit. A screen connection unit for outputting a column in accordance with a frame rate of the screen display device.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 shows an arrangement of image frames based on the 1 GOP layer of the MPEG of the international moving image compression standard. As shown, a GOP is composed of three types of frames. I-frame (Intra-coded)
Is video data encoded only in information within a frame, and a P frame is data obtained by predicting a motion from a previous I frame or P frame and encoding a motion vector and its difference data. Then, the B frame is used for the previous and subsequent I frames.
This is data obtained by encoding a motion vector from a frame or a P frame and its difference data. If the video is encoded using the relevance between the frames, the compression efficiency can be increased.

The present invention provides an apparatus for outputting the above-mentioned frame sequence in accordance with the frame rate of the screen display device when the frame rate of the input signal having such a frame arrangement is different from the frame rate of the screen display device.
FIG. 2 is a block diagram of a video decoding apparatus according to a preferred embodiment of the present invention. In the device shown in FIG.
Receives an encoded video signal and outputs it to the decoding unit 20. The decoding unit 20 decodes the input video signal,
The result is stored in the frame memory 30. Decoding unit 2
0 reads the decoded video from the frame memory 30 and outputs it to the screen display device through the screen connection unit 40.

On the other hand, in the apparatus shown in FIG. 2, a first frame rate generator 50 receives a reference clock and generates a frame rate of an input bit string, that is, a first frame rate. The second frame rate generator 60 receives the reference clock and generates the frame rate of the screen display device, that is, the second frame rate. Then, the frame rate conversion unit 70 includes the first and second frame rate generation units 5
The first and second frame rates generated from 0 and 60 are input, and a control signal for converting the frame rate of the input bit string into the frame rate of the screen display device is generated. The frame rate conversion unit 70 converts the control signal into the decoding unit 2
0 to control the output of the decoded video. More specifically, the first calculation unit 73 of the frame rate conversion unit 70 includes the first and second frame rate generation units 5
The first and second frame rates are input from 0 and 60, and a threshold value for determining a point of extraction or repetition of a frame output from the decoding unit 20 is calculated. The second calculation unit 74 calculates a delay time that is delayed in order to output a predetermined frame of the input bit string to the frame rate of the screen display device. The extraction determining unit 71 determines the frame to be extracted from the decoded frames after receiving the outputs of the first calculating unit 73 and the second calculating unit. Similarly, the repetition determination unit 72 receives the outputs of the first calculation unit 73 and the second calculation unit 74 and determines a frame to be repeated.

The screen connection section 40 outputs the output of the decoding section 20 to a screen display device (not shown) in accordance with the frame rate supplied from the second frame rate generation section 60.
The operation of the apparatus of FIG. 2 having such a configuration will be described with reference to FIGS. The input buffer device 10 of the device in FIG. 2 receives a bit sequence of a video signal that has been compression-encoded and inputs the bit sequence to the decoding unit 20. The decoding unit 20 performs signal processing such as inverse quantization, inverse DCT, and motion compensation on the video signal input from the input buffer 10 to decode the video signal before compression encoding. The decoding unit 20 stores the decoded video signal in the frame memory 30.

The first frame rate generator 50 generates a frame rate of an input bit string, that is, a first frame rate, using a reference clock. The second frame rate generator 60 receives the reference clock and generates the frame rate of the screen display device, that is, the second frame rate. The frame rate converter 70 receives the first and second frame rates of the first and second frame rate generators 50 and 60, and outputs a control signal for controlling the output of the decoder 20 based on the difference between the two frame rates. appear.

For this reason, an operation principle of outputting an input video signal of the first frame rate to a screen display device of the second frame rate will be described with reference to FIG. FIG. 3 shows the conversion operation of the frame rate when the frame rate of the input bit string is higher than the frame rate of the screen display device. FIG. 3 shows an example in which an NTSC input bit string is input to a TV receiver having a PAL screen display device.

As shown in FIG. 3, in the NTSC system, 3 per second is used.
Outputs zero frames. In other words, the output interval between frames is 1/30 second. On the other hand, the PAL screen display device outputs 25 frames per second on the screen, and each frame is output every 1/25 second. Therefore, if the input bit string is output at the frame rate of the screen display device, the last five frames of the input bit string corresponding to the difference between the two methods are too long to be output to the screen, and the output of the screen in real time is performed. Becomes impossible.

Here, the time for outputting six frames of the input bit string corresponds to the output time for five screen display devices. Therefore, if one frame of the input bit string is extracted one by six, it can be output in accordance with the frame rate of the screen display device. More specifically, as shown in FIG. 3B, after the I frame of the start frame is output to the GOP layer, the next frame is output according to the frame rate of the input bit string of 1/30 seconds. Instead of the frame rate of the screen display device,
Output in 5 seconds. That is, the frames after the I frame are output after being delayed by a predetermined time in order to match the frame rate of the screen display device. At this time, assuming that the first delay time is △, △ corresponds to the difference (1/25 to 1/30) between the interval at which the frame of the input bit string is output and the interval at which the image is output on the screen display device. That is, the delay times of the frames after the I frame are continuously accumulated at 1 △, 2 △, 3 △,.

If the delay time is accumulated in this manner, the fifth frame of the input bit sequence elapses about 5 △, that is, 1/30 seconds corresponding to the frame rate of the input bit sequence, after the fourth frame is displayed on the screen. Is displayed on the screen. Therefore, if the sixth frame of the input bit string is extracted, the output time point of the seventh frame matches the frame rate of the screen display device. By repeating this operation, the frame rate of the input bit string can be adjusted to the frame rate of the screen display device.

At this time, it is desirable that the extracted frames are limited to B frames which include the least frame information, and that the deterioration of the image quality due to the extraction of the frames is minimized. In FIG. 2, a first calculation unit 73 in a frame rate conversion unit 70 receives a first and a second frame rate from the first and second frame rate generation units 50 and 60 and sets a threshold value for use as a criterion at the time of extraction. Calculate the value. The threshold value is used to detect when a predetermined frame of the input bit sequence is delayed to have the frame rate of the screen display device when the output interval of the input bit sequence is equal to 5 °. It is desirable to set a little smaller than 5 △). As an embodiment of the present invention, the first calculation unit 73 calculates a time that is the output interval of the input bit string−the reference delay time △ / 2, and extracts the calculation result.
Output to

On the other hand, the second calculation unit 74 receives the first and second frame rates, calculates a reference delay time に corresponding to a difference between the two frame rates, calculates a delay amount per frame from this, and extracts and determines it. 71. Extraction determination unit 7
1 calculates the threshold value input from the first operation unit 73 and the delay amount calculated from the second operation unit 74. If the comparison result indicates that the delay amount is equal to or greater than the threshold value, the extraction determining unit 71 determines whether the corresponding frame is a B frame at this time. The extraction determining unit 71 generates an extraction control signal when the delay amount is equal to or more than the threshold value and the corresponding frame is determined to be a B frame.

The decoding unit 20 outputs the video signal stored in the frame memory 30 to the screen connection unit 40. Decryption unit 2
0 causes frames to be extracted in the order of output to the screen connection unit 40 when the extraction control signal is input from the extraction determination unit 71, and to extract frames in the order of outputting subsequent frames to the screen connection unit 40; Is output to the screen connection unit 40.

The screen connection unit 40 converts the decoded video output from the decoding unit 20 into a second frame rate generation unit 60.
Output to the screen display device in accordance with the frame rate generated from. On the other hand, the operation when the frame rate of the input bit string is lower than the frame rate of the screen display device is shown in FIG. FIG. 4 shows an example in which an input bit string of the PAL system is input to a TV receiver having a screen display device of the NTSC system, and the frame rate can be converted through the reverse process of FIG. That is, in the case of FIG. 4, the frame output time of five input bit strings corresponds to the output time of six screen display devices. Therefore, if the frames of the input bit string are repeated one by one every five frames, the output can be performed in accordance with the frame rate of the screen display device. At this time, in order to output the input bit sequence at the frame rate of the screen display device, the input bit sequence is output earlier than the frame output interval of the input bit sequence by a predetermined time. The reference time to be advanced uses the same 遅 延 as the reference delay time described above.

The repetition determination unit 72 compares the threshold value input from the first operation unit 73 with the delay amount calculated from the second operation unit 74. At this time, the delay amount is a negative value, that is, a shortening amount. When the comparison result indicates that the shortening amount is equal to or greater than the threshold value, the repetition determination unit 72 generates a repetition control signal.
When receiving the repetition control signal from the repetition determination unit 72, the decoding unit 20 outputs the previously output frame to the screen connection unit 40 again.

[0020]

As described above, the decoding apparatus of the present invention converts a video signal having a frame rate different from the frame rate of the screen display device to have the frame rate of the screen display device, thereby displaying the image on the screen. An image having a frame rate different from the frame rate of the device can be displayed through the same screen display device.

[Brief description of the drawings]

[Figure 1] International Standard for Moving Image Experts Group (MPEG)
FIG. 3 is a diagram showing a frame arrangement of one GOP layer according to FIG.

FIG. 2 is a block diagram illustrating a video decoding apparatus having a frame rate conversion function according to a preferred embodiment of the present invention;

FIG. 3 is a diagram for explaining a frame rate conversion operation when the frame rate of an input bit string is higher than the frame rate of a screen display device.

FIG. 4 is a diagram for explaining a frame rate conversion operation when the frame rate of an input bit string is lower than the frame rate of a screen display device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Input buffer 20 Decoding part 30 Frame memory 40 Screen connection part 50, 60 Frame rate generation part 70 Frame rate conversion part

Claims (7)

(57) [Claims] 1. A video decoding apparatus for converting an encoded video signal having a frame rate different from the frame rate of a screen display device to have a frame rate of the screen display device and outputting the converted video signal. A decoding unit that decodes the encoded video signal; a first frame rate generation unit that generates a first frame rate of the encoded video signal based on a predetermined reference clock; and a screen display based on the reference clock. A second frame rate generating unit for generating a second frame rate of the device; and receiving the first and second frame rates generated by the first and second frame rate generating units,
When one frame rate is higher than the second frame rate, an extraction control signal for extracting a predetermined B frame is generated, and when the first frame rate is lower than the second frame rate, the predetermined frame is repeated. A video, comprising: a frame rate conversion unit that generates a repetition control signal and outputs it to the decoding unit; and a screen connection unit that outputs a frame sequence output from the decoding unit in accordance with the frame rate of the screen display device. Decryption device. 2. The method according to claim 1, wherein the frame rate conversion unit generates an extraction or repetition control signal based on a time that a predetermined frame of the input signal is delayed to have a frame rate of the screen display device. Item 3. The video decoding device according to Item 1. 3. A video decoding apparatus according to claim 2 wherein the frame rate conversion unit, characterized in that the generating the extracted control signals in the above threshold value the delay time is already set. 4. The video decoding apparatus according to claim 3, wherein the frame rate conversion unit generates an extraction control signal when a frame when the delay time becomes equal to or more than a threshold value is a B frame. . Wherein said frame rate conversion unit the sign of the delay time (-), and claims, characterized in that for generating a repetitive control signal when the absolute value becomes the threshold value or more that have already been set 3. The video decoding device according to 2. 6. The threshold value is set so that a delay time corresponding to a frame rate of the input signal can be detected.
6. The video decoding device according to claim 3, wherein the video decoding device is set to be slightly smaller than the frame rate . 7. A first operation unit for calculating a predetermined threshold value, wherein the frame rate conversion unit calculates a delay time for outputting the input signal to a frame rate of a screen display device. An extraction decision unit that receives the threshold value and the delay time, and that generates an extraction control signal if the sign of the delay time is (+) and the absolute value is greater than the threshold value; 2. The video decoding apparatus as claimed in claim 1, further comprising: a repetition determining unit for generating a repetition control signal when a sign of the input delay time is (-) and an absolute value is greater than the threshold value. apparatus.